Sugeng Widada scite author profile

The Semarang city is the capital of the Central Java Province that is experiencing rapid urban growth. Land subsidence in Semarang has been widely reported and its impacts can be seen already in daily life. In order to minimize its damage, land subsidence monitoring is required as a part of natural disaster mitigation. On the other hand, understanding of the subsurface lithology conditions is needed to explore the causes of subsidence in certain areas. One of the methods of monitoring land subsidence is by utilizing Synthetic Aperture Radar (SAR) satellite image which is used in this research. In turn, the subsurface lithology can be studied with the geoelectric methods, one of which is the resistivity method. The purpose of this research is to estimate the land subsidence in the Semarang city using the Sentinel Image Analysis by means of the DInSAR Method and its relation with subsurface lithology studied using the resistivity geoelectric method. The result of the research shows that the average value of subsidence was located in the Genuk District area and Semarang Utara District area which each subsidence value is 9.8 cm/year and 12.7 cm/year. This is because the lithology under the surface of the two locations is clay and silt in a soft condition that is thicker than other locations. The saltwater content contributes to the consolidation process in the lithology. There is a tendency that land subsidence is greater in the port and industrial areas than in other regions, due to building loads.

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Analisis Geospasial Area Genangan Banjir Rob dan Dampaknya pada Penggunaan Lahan Tahun 2020 - 2025 di Kota Pekalongan Provinsi Jawa Tengah

Iskandar

Helmi

Muslim

et al. 2020

Indonesian Journal of Oceanography

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Perubahan iklim dapat menyebabkan peningkatan temperatur laut yang berdampak pada kenaikan muka air laut karena pencairan es di kutub. Naiknya muka air laut menimbulkan ancaman bagi wilayah yang berada di wilayah pesisir dan pantai, salah satunya adalah Kota Pekalongan. Salah satu dampak yang ditimbulkan adalah banjir rob. Banjir rob diakibatkan pasang air laut dan diperparah oleh fenomena kenaikan muka air laut serta penurunan muka tanah sehingga menjadi faktor dalam perluasan genangan banjir rob. Tujuan dari penelitian ini adalah melakukan pengolahan data dan mengkaji karakteristik pasang surut bulan Februari 2020 serta laju kenaikan muka air laut, mengetahui laju penurunan muka tanah berdasarkan citra Satelit SAR Sentinel-1 tahun 2017-2019 untuk rekonstruksi topografi pada tahun 2025, dan analisis luas area genangan banjir rob pada penggunaan lahan bulan Februari 2020 dan prediksi tahun 2025. Metode yang digunakan untuk komponen pasang surut dihitung dengan menggunakan metode Admiralty, kenaikan muka air laut dengan metode regresi linier, laju penurunan muka tanah dengan metode DInSAR dan pemetaan genangan banjir rob dengan pemodelan geospasial. Hasil dari penelitian ini menunjukkan nilai selisih HHWL dan MSLpada bulan Februari 2020 adalah 45,99 cm. Kenaikan muka air laut adalah 4,3 mm/tahun. Penurunan muka tanah rata-rata Pekalongan Utara, Pekalongan Barat, Pekalongan Timur, dan Pekalongan Selatan sebesar 24,13 cm/tahun, 22,83 cm/tahun, 21,94 cm/tahun, dan 20,40 cm/tahun. Luas daerah yang tergenang banjir rob pada bulan Februari 2020 dengan total 477,57 hektar. Prediksi luas area yang tergenang banjir rob tahun 2025 dengan total 1877,07 hektar. Pengaruh penurunan muka tanah menjadi faktor paling tinggi dibandingkan dengan kenaikan muka air laut terhadap perubahan luas genangan banjir rob.

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Kontaminasi Logam Berat Arsen, Mercury dan Magnesium pada Air Laut Sedimen dan Anadara inaequivalvis (Mollusca: Bivalvia, Bruguiera, 1792) di Perairan Brebes Jawa Tengah Indonesia

et al. 2018

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Contamination of Heavy Metal Arsen, Mercury and Magnesium in the Seawater, Sedimen and Anadara inaequivalvis (Mollusca: Bivalvia, Bruguiera, 1792) in Brebes, Central Java, Indonesia Brebes coastal areas have been developed into industrial areas and human settlement. It has been causing effect on coastal environmental. Heavy metal is one of many source of pollution in coastal environmental. In order to assess As, Hg and Mg contaminant on the Brebes coast, Central Java, samples of marine water, sediment and Anadara inaequivalvis specimens were collected for analyzed by Inductively Coupled Plasma-Mass Spectrometer (ICPMS). The result showed that the heavy metal As, Hg and Mg were found in the sea water, sediment, and in the tissue of A. inaequivalvis. The concentration of Mg was the highest compared to As and Hg in all samples. Meanwhile As and Hg had the lowest concentration. We concluded that Brebes coastal areas has been contaminated by heavy metals. The bio-ability of bivalves to accumulate heavy metals depends on many factors such as geochemical and biological factors. Pesisir Brebes telah berkembang menjadi daerah industri dan tempat tinggal. Hal tersebut tentunya akan memberi dampak pada lingkungan pesisir. Logam berat perupakan salah satu penyebap pencemaran di lingkungan pesisir. Untuk mengetahui kontaminasi As, Hg dan Mg di pesisir Brebes, maka beberapa sampel air laut, sedimen dan kerang A. inaequivalvis dianalisa menggunakan ICPMS. Hasil penelitian menunjukan bahwa logam berat As, Hg dan Mg ditemukan dalam air laut, sedimen dan kerang A. inaequivalvis. Konsentrasi Mg menunjukan nilai yang paling tinggi di semua sampel yang dianalisa. Sedangkan konsentrasi As dan Hg menunjukan nilai yang rendah secara berurutan. Hal ini dapat disimpulkan bahwa pesisir Brebes talah terkontaminasi oleh logam berat. Kemampuan bivalvia unuk mengakumulasi logam tergantung banyak faktor seperti kondisi geokimiawi dan biologis.

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Sugeng Widada

Groundwater contamination status in Malaysia: level of heavy metal, source, health impact, and remediation technologies

Sediment Transport Model In Sayung District, Demak

Estimation of Land Subsidence Using Sentinel Image Analysis and Its Relation to Subsurface Lithology Based on Resistivity Data in the Coastal Area of Semarang City, Indonesia

Analisis Geospasial Area Genangan Banjir Rob dan Dampaknya pada Penggunaan Lahan Tahun 2020 - 2025 di Kota Pekalongan Provinsi Jawa Tengah

Kontaminasi Logam Berat Arsen, Mercury dan Magnesium pada Air Laut Sedimen dan Anadara inaequivalvis (Mollusca: Bivalvia, Bruguiera, 1792) di Perairan Brebes Jawa Tengah Indonesia

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